CN105556460A - Error display module - Google Patents

Abstract

An apparatus is provided to display errors. The apparatus includes an error display module, a memory, and a processor. The error display module to provide a collection of error data is disclosed. The collection of error data for at least one error from an electronic component is disclosed. The memory to store a set of instructions is disclosed. The processor coupled to the memory. The set of instructions instructing the processor to store the collection of error data and display the collection of error data without using power from the electronic component is disclosed.

Description

Mistake display module

Background technology

Electronic system generally includes error-detecting architecture.Error-detecting architecture can be provided by operating system, hardware component supplier and/or be write in order to specific purpose by the original equipment manufacturer (OEM) of system.The mistake of error-detecting architecture monitoring electronic system and fault.Error-detecting architecture determines when that mistake occurs and determines whether mistake is worth the action made by user, such as repairs.

Accompanying drawing explanation

Describe indefiniteness example of the present disclosure in the following description, read with reference to appended accompanying drawing and do not limit the scope of claim.In the accompanying drawings, adopt same or analogous Reference numeral to mark in the accompanying drawing that equivalent or similar structure, element or its parts that occur in more than one accompanying drawing occur at them usually.Mainly conveniently know with demonstration and select the size of the parts shown in accompanying drawing and feature and need not proportionally draw.

With reference to accompanying drawing:

Fig. 1 illustrates the block scheme of the system of the collection for showing misdata according to example;

Fig. 2 illustrates the schematic diagram of the system of the Fig. 1 according to example;

Fig. 3 illustrates the block scheme of a part for the system of the Fig. 1 according to example;

Fig. 4 illustrates the block scheme of the equipment according to example;

Fig. 5 illustrates the process flow diagram of the method for the collection for showing misdata according to example; And

Fig. 6 illustrates the process flow diagram of the method for the Fig. 5 according to example.

Embodiment

In the following detailed description, reference is carried out to the accompanying drawing forming a wherein part, and depict can implement concrete example of the present disclosure by the mode of signal in accompanying drawing.It should be understood that and can adopt other examples and the change can made in structure or in logic and do not depart from the scope of the present disclosure.

Typical error-detecting architecture stores the information about the fault in electronic system.The information about fault stored comprises the state of such as fault type and electronic system.Failure message to be stored in system and and if only if system assembled and be energized time can access.

In this example, a kind of equipment is provided.This equipment comprises mistake display module, storer and processor.Mistake display module is for providing the collection of misdata.The collection of misdata is about at least one mistake from electronic unit.Storer is for storing the set of instruction.Processor is attached to storer.The collection of the set instruction processorunit storage errors data of instruction and show the collection of misdata and do not use the electric power from electronic unit.

As used herein, term " mistake " refers at least one fault of electronic unit, inefficacy or mistake.Term " mistake " or " multiple mistake " can relate to cause identical or different mistake multiple faults, inefficacy or mistake.

As used herein, phrase " electronic unit " comprises a part for electronic system, such as computing system or module.Such as, electronic system can comprise server, memory storage, storage solution, Networking Solutions & provisioned and/or cloud service.

Fig. 1 illustrates the block scheme of the system of the collection for showing misdata according to example.System 100 comprises equipment 120, electronic unit 140 and the error detection module 160 with wrong display module 130.Electronic unit 140 can form such as memory module.

Error detection module 160 is for monitoring the mistake of electronic unit 140.Such as, error detection module 160 profiling error, the intermittent fault such as in memory module.Error detection module 160 also can be monitored multiple intermittent fault and/or determine when to meet the threshold value of mistake.Error detection module 160 identifies the set of the information be associated with mistake subsequently, such as to having fault, repairing the identification of a part for the electronic unit of instruction and/or diagnostic data.Error detection module 160 can also provide normal notification to user or interconnected system.Notice automatically can produce based on mistake.Such as, mistake can be detected by malfunctioning module and be monitored by error detection module 160.Selectively, error detection module 160 can detect and monitor mistake.

Mistake display module 130 receives the set of the information be associated with mistake from error detection module 160.The set of information is stored in the storer of such as nonvolatile memory by mistake display module 130.Mistake display module 130 shows the collection of misdata subsequently.The example of the collection of the misdata that can be shown comprise mistake, error code, error description, thrashing message, for the instruction of mis repair set (namely, repair instruction), for error recovery and/or provide during repairing visual guidance with specific or the action that provides of order or the sequence of instruction and the mark of errors present or error source successively, the visual description of the vicious electronic unit of such as tool 140.Mistake display module 130 does not use the electric power of other parts from electronic unit 140 and/or system 100, shows the collection of misdata to make i.e. box lunch when electronic unit 140 removes electric power yet.Such as, mistake display module 130 can power to provide the power supply independent of the electric power being supplied to electronic unit to display by battery, capacitor and/or standby power supply.In other words, when electronic unit 140 and/or the system that is connected to electronic unit 140 do not receive electric power or be not energized, the function of mistake display module 130 and display and/or visual detector can be visible.Another example comprises use systematic electricity to use display technology (the such as E of such as electronic paper ink and/or change pixel status ) write misdata.Such as, as use E time, keep visible when not there is under pixel remains on last state and when removing electric power any additional power supply.

The display of the collection of misdata can provide visual detector as independent display and/or with other display combinations.Visual detector represents misdata.Namely, when box lunch removes electric power from electronic unit, visual detector is still visible.Such as, visual detector can be the display adjacent with a part for the electronic unit comprising mistake and/or display information and can receive from user the user interface inputting to provide additional error data or show misdata in different forms.Visual detector can be powered by discrete power supply (such as battery), or visual detector by the Power supply in system 100 or electronic unit 140, but can use such as electronic paper ink and/or display technology and keep visible.

Equipment 120, electronic unit 140 communicate via link 110 with error detection module 160.Link 110 ordinary representation is via telecommunication link, infrared link, radio frequency link or provide one in the cable of any other connector of electronic communication or system, wireless, optical fiber and/or long-range connection and multiple.Link 110 comprises Intranet, internet or both combinations at least in part.Link 110 also can comprise middle-agent, router, switch, load balancer etc.

Fig. 2 illustrates the schematic diagram of the system of the Fig. 1 according to example.Shown system 100 comprises server 250.Just monitored electronic unit is illustrated as memory module 140A, 140B.Such as, the mistake in (multiple) memory module 140A, 140B can comprise the bit-errors caused by intermittent fault.Misdata can use user interface 232 and/or visual detector 234,236 and show.Such as, user interface 232 can comprise having to describe and has the instruction of the electronic unit 140 of mistake or fault and a part for electronic unit and/or one or more user interfaces 232 of image.Reparation instruction can be used in user interface 232 to carry out error recovery, the image of a part for such as step 1 and step 2 and/or electronic unit and the arrow of sensing errors present.The visual detector of the display device such as with instruction 234 (such as adjacent with memory module 140B " removing ") can be used and/or use light emitting diode (LED) light source 236 to locate and there is (multiple) memory module 140A, the 140B of (multiple) mistake to identify the memory module 140A with 9 (multiple) mistake.User interface 232, visual detector 234,236 and wrong display module 130 can be powered by least one in the following power supply 238 from following middle selection: the standby power supply of battery, capacitor and (multiple) power supply independent of memory module 140A, 140B.Selectively, user interface 232 and/or visual detector 234,236 can be powered by system 100 or electronic unit 140, and user interface 232 and/or visual detector 234,236 can use such as electronic paper ink and/or display technology and keep visible.

Visual display unit can comprise display pannel, such as has and receives input and the user interface 232 providing the interactive display of output in response to input.User interface can be such as indicator screen and/or touch sensitive screen.Display can also provide and will allow user's manipulation menu, retrieval excessive data, upgrade electronic unit and/or send error message for the interactive display element with battery analyzed to other system.Display can be alternative in traditional static file and provide the dynamic set of file.Such as, display can receive from error detection module 160 and upgrade and/or current information, is current or up-to-date to make the information be stored in the nonvolatile memory of wrong display module 130.In addition, this makes based on the renewal from manufacturer or the renewal based on the new software/firmware version be arranged in system 100 or electronic unit 140 and changes or upgrade misdata.

Display can be following form: be such as connected to the single visual detector of at least one electronic unit 140 and/or the combination of visual detector on the cover plate of server, capping or the blast fence 252.Such as, visual detector can comprise at least one visual detector for showing text 234 and be used to indicate at least one indicator lamp 236 of a part of the vicious electronic unit of tool.Indicator lamp can comprise LED source, which form one or more visual detectors 234,236 of a part for the collection representing misdata.Such as, each visual detector 234,236 is positioned at adjacent with a part for the electronic unit 140 of all electronic unit 140A, 140B as shown in Figure 2.Each visual detector 234,236 can such as with the instruction that order display is successively consistent with the reparation instruction for the adjacent electronic unit of visual detector.Can further separately and/or combinationally use multiple visual detector to identify electronic unit to be repaired, such as tool vicious particular memory module 140A or 140B.Such as, display module can use multiple display packing.In one example, visual detector 234,236 can comprise reparation instruction (such as " removing " 234) separately to indicate the electronic unit 140 that will remove during repairing.In another example, user interface can comprise reparation instruction and visual detector can be positioned at adjacent with the electronic unit corresponded to for auxiliary reparation, such as corresponds to the color coding lamp 235 of each instruction in user interface to allow easily to identify which instruction reparation corresponds to.

Mistake display module 130 receives the information about mistake from error detection module 160.Error detection module 160 monitors the mistake of electronic unit 140.Can by error detection module 160 perform individually monitoring and/or with such as with another block combiner of at least one malfunctioning module be associated 240 in the electronic unit of such as memory module 140A, 140B and perform monitoring.Monitoring can comprise profiling error, such as from the intermittent fault of memory module.The cause of identification error can be comprised to the analysis of mistake.Error detection module 160 can also be determined based on mistake to repair instruction and/or diagnosis solution.Such as, error detection module 160 can be provided for the instruction correcting the intermittent fault causing bit-errors.Can be utilized by error detection module 160 and the inquiry of all databases cloudlike memory storage or internet 262 and/or such as data are stored to the storehouse of the data of 264 or gather execution analysis and determining step.Can receive the cause of mistake from database and/or repair instruction, such as, error detection module 160 can download mistake or restoration information and/or from the inner or outside storehouse copy error data of system 100 from website.Information about mistake can be static information or multidate information.Such as, information can be stored in regularly or retrieve by demand or upgrade in the nonvolatile memory from the misdata of remote-control device, and the information that can be continually updated to make data to guarantee to correspond to misdata is current.In this example, misdata can receive from the website of manufacturer, or upgrades based on to the software of system or electronic unit 140 or firmware and upgrade.Error detection module 160 can also send the notice about mistake.Such as, notice can send to another machine (that is, Cloud Server or internet 262) via such as Email or other message 266, to storage arrangement (that is, data store 264) and/or to user.

Fig. 3 illustrates the block scheme of a part for the system of the Fig. 1 according to example.With reference to Fig. 3, system 100 is depicted as and comprises mistake display engine 330 and error-detecting engine 3 60.As shown in Fig. 1-Fig. 2, mistake display engine 330 and error-detecting engine 3 60 link 110 to electronic unit 140.System 100 is depicted as the data storage 380 comprising and be connected to wrong display engine 330 and error-detecting engine 3 60 via link 110 further.Mistake display engine 330 function completes via the link 110 wrong display engine 330 being connected to error-detecting engine 3 60 and data storage 380.

Mistake display engine 330 usually representative provides the interface between error-detecting engine 3 60 and electronic unit 140 with the combination of the hardware and/or program that show the collection of misdata.Such as, mistake display engine 330 and error-detecting engine 3 60 communicate the set receiving the information be associated with mistake.The set of information is stored in the storer of such as nonvolatile memory by mistake display engine 330.Such as, mistake can be write to nonvolatile memory by error-detecting engine 3 60.

Mistake display engine 330 is determined based on the information relevant to the mistake received from error-detecting engine 3 60 or identifies suitable signal, response and/or message.Mistake shows 330 engines and uses the information relevant to mistake to show the collection of set as misdata of information.The collection of misdata can be shown by sending signal to display.The collection of the misdata of display can when not sending from electronic unit or when running the electric power of system of electronic unit as visible visual detector, uses independent of electronic unit 140 or the power supply of system 100 comprising electronic unit 140 to make display and/or wrong display engine.Such as, user's notice to be presented on panel or battery-powered or use on the visual detector of electronic paper ink and/or display technology.

Error-detecting engine 3 60 represents the combination of hardware and/or the program engaged with wrong display engine 330 usually.Such as, error-detecting engine 3 60 communicates with wrong display engine 330 set providing the information be associated with mistake.Error-detecting engine 3 60 provides the set of information by the mistake of monitoring electronic unit 140.The error-detecting architecture provided by operating system, hardware component supplier and/or the firmware write in order to specific purpose by the original equipment manufacturer (OEM) of system can be provided and perform monitoring.Monitoring can comprise profiling error and determine to diagnose solution with the cause of identification error and/or based on mistake.Such as, error detection module 160 can provide reparation instruction.To analyze and determining step can use internet or data storage 380 and perform by error detection module 160.Error-detecting engine 3 60 can also optionally send to such as user, system manager, database and/or wrong display engine 330 message be associated with mistake.For monitoring mistake and the function sending the error-detecting engine 3 60 of message and notice can be performed a part as the existing mechanism in system 100.

Mistake display engine 330 and/or error-detecting engine 3 60 can comprise extra function, such as produce the ability of the notice relevant to the information received and/or mistake via such as notification engine (not shown), this notification engine usually represents based at least one in mistake 382, restoration information 384 and error message 386 and produces the hardware of notice and/or the combination of program.Notification engine can be discrete engine, or is included at least one in the wrong display engine 330 of function and/or error-detecting engine 3 60 that can perform either individually or in combination and produce notice.

Notice may be used for allowing manual activity, and the soft of such as system 100 or electronic unit 140 is closed down (softshutdown).Soft closing down can manually or automatically perform, and for preventing the unexpected interruption of data degradation or service.When wrong display engine 330 and/or error-detecting engine 3 60 receive mistake and notice provides the reason of service disruption or the reference for the event for trouble hunting to user, notice can also be used as " last resort (lastresort) ".Washability ground, notice can be for monitoring and recording the reporting process of the information about mistake.

Data store 380 and usually represent any storer being configured to be stored in by wrong display engine 330 and/or the addressable data of error-detecting engine 3 60 in the execution of its function.Data store 380 be such as store mistake 382, repair instruction 384, error message 386 and instruction 388 be with the database of the function of execution error display engine 330 and/or error-detecting engine 3 60.Such as, data store the nonvolatile memory that 380 can comprise mistake display engine 330.

The set 388 performing instruction is with the collection stored from the misdata of error detection module 140 and show the collection of misdata.Set for the instruction 388 of the collection of storage errors data may further include the storer that the collection of misdata is write to wrong display module 130 by instruction processorunit.The collection of misdata comprises such as mistake 382, restoration information 384 and error message 386.Mistake 382 can comprise such as error code and/. or error description.Restoration information 384 can comprise such as repairs instruction, and it comprises for the step of mis repair and/or for providing the instruction sequence of guidance during error recovery.Error message 386 can comprise the mark of such as errors present, and the figure of a part for the vicious specific electronic components of such as tool or electronic unit describes or visual detector.The collection of misdata may further include error notification, and it comprises such as can send or be sent to via the electronic information of such as Email or SMS the mistake 382 of user or another system, restoration information 384 and error message 386 via display.After correcting mistake, mistake 382, restoration information 384 and/or error message 386 can maintain or be stored in data store in 380 with can along with the time profiling error and/or system.

Fig. 4 illustrates the block scheme of the equipment 120 according to example.Equipment 120 comprises mistake display module 130, storer 410 and processor 420.Mistake display module 130 is for providing the collection of misdata.The collection of misdata is about at least one mistake from electronic unit.Storer 410 is for storing the set of instruction.Processor 420 is attached to storer 410.The collection of misdata to be stored in the storer of such as nonvolatile memory and to show the collection of misdata and do not use the electric power from electronic unit by the set instruction processorunit 420 of instruction.Such as, display can use power supply independent of electronic unit 140 or electronic paper ink.

With reference to Fig. 4, equipment 120 such as comprises the firmware or computer-readable medium that engage with error detection module 160.Equipment 120 is depicted as and comprises storer 410, processor 420 and interface 430.Storer 410 stores the set of instruction.Processor 420 is attached to storer 410 to perform the set of instruction.Processor 420 usually representative is configured to perform storage programmed instruction in store 410 to perform any processor of various specific function.As shown in figs. 1-3, interface 430 usually represents and makes equipment 120 can store the 380 any interfaces engaged via link 110 and wrong display module 130 and/or data.

Storer 410 is depicted as and comprises operating system 440 and application program 450.Operating system 440 represents the collection of following program: be used as when being performed by processor 420 it runs application 450 platform.The example of operating system 440 comprises Microsoft's with various versions.Application program 450 represents following programmed instruction: be used as the application program when being performed by processor 420 for providing misdata to gather when being performed by processor 420.

Such as, Fig. 4 illustrates wrong display module 130 as the executable program instructions in the storer 410 of the equipment of being stored in 120.Mistake display module 130 provides the collection of the misdata of at least one mistake from electronic unit when being performed.The set 388 of instruction makes wrong display module 130 collection of misdata can be stored in memory and show the collection of misdata and do not use the electric power from electronic unit.Such as, display can comprise the user interface of a part for the collection showing misdata.

Referring back to Fig. 1-Fig. 3, mistake display engine 330 is described to the combination of hardware and/or program.As shown in Figure 4, hardware components comprises processor 420.Program part comprises operating system 440, application program 450 and/or its combination.Such as, mistake display module 130 represents following programmed instruction 388: the enforcement causing the wrong display engine 330 of Fig. 1-Fig. 3 when being performed by processor 420.

The program of mistake display module 130 can be stored in the executable instruction of processor 420 comprised on the storer 410 of tangible storage medium, and hardware comprises the processor 420 for performing instruction.Storer 410 can store the programmed instruction making processor 420 execution of program instructions when being performed by processor 420.Storer 410 and processor 420 are integrated in identical device (or system), or but storer 410 is discrete can access this device (or system) and processor 420.

In this example, programmed instruction can be the part that can be performed the installation data bag using system 100 manner of execution by processor 420.Storer 410 is portable mediums, such as CD, DVD or flash drive or the storer maintained by server, and installation data bag can be downloaded from this server and install.In other examples, programmed instruction can be a part of having installed an application program on the computing device or multiple application program.In other example, storer 410 comprises integrated memory, such as hard drive.

Fig. 5 illustrates the process flow diagram 500 for showing the method that misdata gathers according to example.In square frame 520, the collection of the misdata be associated with at least one mistake from electronic unit is write to nonvolatile memory.Nonvolatile memory is associated with wrong display module.When at least one mistake electronic unit can within the scope of acceptance error time, in square frame 540, maintain the normal work of electronic unit.In square frame 560, when at least one mistake is in error thresholds or scope, suspend the work of electronic unit.Being shown as visual detector at least partially in square frame 580 in misdata collection.When the work of electronic unit is suspended, visual detector is visible.Such as, visual detector comprises the power supply independent of electronic unit can be visible when the work of electronic unit is interrupted to make visual detector.Visual detector can comprise such as the sequenced collection of the reparation instruction of error recovery.The method can provide display as making user can show misdata collection and receiving the interactive user interface inputted further.Such as, can determine based on the input received and/or revise display.

Fig. 6 illustrates the process flow diagram 600 of the method for the Fig. 5 according to example.In square frame 610, the electronic system with at least one electronic unit maintains normal work, until mistake detected by error-detecting architecture in block 620.Error-detecting architecture such as can be managed via error detection module by managed firmware, system firmware and/or operating system.Error-detecting architecture determines whether mistake is fatal in block 630.Such as, when the probability of unrecoverable error increases to unacceptable level, mistake is fatal.When (multiple) mistake remains on acceptable level (namely can acceptance error within the scope of), (multiple) mistake is defined as to be nonfatal and to move to square frame 640.Square frame 640 shows the information of error detection module collection about the mistake and fault that are caused mistake by such as system firmware.Information about mistake also can be sent to managed firmware.Error detection module subsequently in square frame 642 tracking component error rate and determine whether and/or when need preemption service.In square frame 644, by the information of managed firmware process about mistake, managed firmware also can be retrieved and repairs instruction and provide the notice for mistake to user.Information about mistake is sent to wrong display module subsequently and writes to the nonvolatile memory of wrong display module in square frame 646.Because mistake is confirmed as nonfatal, therefore system continues normal work in square frame 610.

But when error-detecting architecture determines that mistake is fatal in block 630, in square frame 650, the error detection module of such as system firmware gathers error message from such as operating system.The abnormal interrupting information of hardware check is gathered by such as system firmware from hardware in square frame 652.In square frame 654, by managed firmware process error message, managed firmware is also retrieved and is repaired instruction and inform the user mistake.Error message writes to the nonvolatile memory of wrong display module in square frame 656, and system is closed down in square frame 658.When system is closed the stopping time, cover plate can be opened or remove magnetic disk cartridge (cartridge), and can check and access errors display module.In square frame 660, mistake display module guides reparation process to use such as user interface.The display pannel of visual detector and the parts of positioning system that such as have and be associated with wrong display module can be used in square frame 662.In square frame 664, user interface and/or display pannel can guide user to perform the order of step or to provide other to instruct.Such as, user interface and/or display pannel can comprise the list of repairing instruction and/or the user-interactive menu with restoration information or instruction.Mis repair in square frame 666, and maintenance is stored on wrong display module for subsequent analysis by error message.System again can be opened subsequently and be back to the normal work in square frame 610, and the method can repeat.

Although the process flow diagram of Fig. 5-Fig. 6 shows the particular order of execution, the order of execution can be different from shown order.Such as, the execution sequence of square frame can be upset relative to shown order.In addition, side by side or partly side by side square frame shown continuously can be performed.All these changes all within the scope of the invention.

The indefiniteness having employed example of the present disclosure describes in detail and describes the disclosure, and is not intended to limit the scope of the present disclosure.It should be understood that and may be used for other examples with reference to feature described in an example and/or operation, and not all examples of the present disclosure have shown in certain figures or with reference to the whole feature described in an example and/or operation.The change of described example will be there is for those skilled in the art.In addition, when using in the disclosure and/or claim, term " comprises ", " comprising ", " having " and their conjugations will mean " including but not necessarily limited to ".

It should be noted, more above-described examples can comprise for the disclosure can and nonessential and be intended to the details of exemplary structure, action or structure and action.Structure described herein and action can be replaced the equivalent form of value performing identical function, even if as known in the art, structure or action are different.Therefore, the scope of the present disclosure will only be limited by key element as used in the claims and definition.

Claims (15)

1. an equipment, comprising:

Mistake display module, for providing the collection of misdata, the collection of described misdata is about at least one mistake from electronic unit;

Storer, for storing the set of instruction; And

Processor, is attached to described storer, and the set of described instruction indicates described processor:

Store the collection of described misdata in the nonvolatile memory; And

Use and the power supply of described electronic unit phase independently power supply and show the collection of described misdata.

2. equipment according to claim 1, wherein, described wrong display module provides multiple visual detector, each visual detector is orientated as adjacent with a part for described electronic unit, each visual detector is used for the instruction consistent with the set of repairing instruction of order display successively, and the set of described reparation instruction is used for the described part that the described electronic unit be adjacent orientated as by described visual detector.

3. equipment according to claim 1, wherein, the collection of described misdata comprises error description.

4. equipment according to claim 1, wherein, the collection of described misdata comprises the mark of errors present.

5. equipment according to claim 1, wherein, the collection of described misdata comprises reparation instruction.

6. equipment according to claim 1, wherein, described wrong display module comprises user interface.

7. a system, comprising:

Electronic unit;

Error detection module, for monitoring the mistake of described electronic unit; And

Mistake display module, for:

Receive the set of the information be associated with described mistake,

Store the set of described information in memory; And

The collection of display misdata, the collection of described misdata does not use the electric power from described electronic unit and shows.

8. system according to claim 7, wherein, described wrong display module is powered by least one be selected from following power supply: battery, capacitor and standby power supply.

9. system according to claim 7, wherein, the set of described information obtains from remote-control device.

10. system according to claim 7, wherein, described wrong display module provides and receives input and the interactive display providing output in response to described input.

11. systems according to claim 7, wherein, described electronic unit comprises memory module and described mistake comprises bit-errors.

12. systems according to claim 7, wherein, described wrong display module provides visual display unit, and described visual display unit comprises at least one visual detector being selected from display pannel and LED source.

13. 1 kinds for showing the method for the collection of misdata, described method comprises:

The collection of the misdata be associated with at least one mistake from electronic unit is write to nonvolatile memory;

When at least one mistake described described electronic unit can within the scope of acceptance error time maintain the normal work of described electronic unit;

When at least one mistake described described in described electronic unit can outside acceptance error scope time suspend the work of described electronic unit; And

The collection of described misdata is shown as visual detector at least partially, and when the work of described electronic unit is suspended, described visual detector is visible.

14. methods according to claim 13, comprise further: provide interactive user interface to show the collection of described misdata and to receive input.

15. methods according to claim 13, comprise further: the sequenced collection described visual detector being shown as instruction.